Scanner with single source mechanical power

ABSTRACT

A scanner comprising a frame assembly for supporting a movable carriage for scanning movement in a scanning path in a first direction, a sheet transport to transport a sheet through the scanner, means to move the carriage across the sheet to perform an operation on the sheet and a single source of electromechanical power to drive all of the transport and means to move in the scanner. In a preferred embodiment the carriage includes a reading head and a printing head and the scanner has a document transport path and a copy sheet transport path.

CROSS REFERENCE TO RELATED APPLICATIONS

Attention is directed to copending U.S. application Ser. No. 07/451,056entitled Compact Multimode Input and Output Scanner; U.S. applicationSer. No. 07/547,264 entitled Compact Read/Write Scanner; U.S. Ser. No.07/547,275 entitled Platen Accessory For Portable Copier and U.S. Ser.No. 07/547,272 entitled Scanner With Document and Copy SheetRegistration Means, all filed Jul. 2, 1990. Attention is also directedto copending U.S. application Ser. No. 07/703,083 entitled indexingMechanism for Compact Scanner; U.S. Ser. No. 07/702,989 entitledScanning Carriage Drive and Image Timing; and U.S. Ser. No. 07/702,994entitled Sheet Registration System, and U.S. Ser. No. 07/703,090entitled Scanner With Floating Backstop, all filed concurrently herewithand commonly assigned.

BACKGROUND OF THE INVENTION

The present invention relates to a very low cost portable compactscanner employing a single scanning carriage incorporating a readinghead and or a printing head to permit the reading of an originaldocument or the printing of an image on a copy sheet. When the scanningcarriage has both a reading head and a printing head it can provideessentially simultaneous reading and writing of an original document anda copy. More particularly the invention directed to actuation of such ascanner with only a single source of electromechanical power.

Historically, copies of original documents have been produced by azerographic process wherein the original document to be copied is placedon a transparent platen, either by hand or automatically through the useof a document handler, and the original document illuminated by arelatively high intensity light. Image rays reflected from theilluminated document are focused by a suitable optical system onto apreviously charged photoconductor, the image light rays functioning todischarge the photoconductor in accordance with the image content of theoriginal to produce an electrostatic latent image of the original on thephotoconductor. The electrostatic latent image sop produced isthereafter developed by a suitable developer material commonly referredto as toner, and the developed image transferred to a sheet of copypaper brought forward by a suitable feeder. The transferred image isthereafter fixed to the copy paper by fusing to provide a permanent copywhile the photoconductor is cleaned of residual developer preparatory torecharging. More recently, interest has arisen in electronic imagingwhere, in contrast to the aforedescribed xerographic system, the imageof the document original is converted to electrical signals or pixelsand these signals, which may be processed, transmitted over longdistances, and/or stored, are used to produce one or more copies. Insuch an electronic imaging system, rather than focusing the light imageonto a photoreceptor for purposes of discharging a charged surface priorto xerographic development, the optical system focuses the image raysreflected from the document original onto the image reading array whichserves to convert the image rays to electrical signals. These signalsare used to create an image by some means such as operating a laser beamto discharge a xerographic photoreceptor, or by operating some directmarking system such as an ink jet or thermal transfer printing system.

It is generally advantageous if the normally separate document readingand copy printing operations could be combined. If some of thesereading/writing functions could be combined, system operation andsynchronization could be simplified and system cost reduced through theuse of fewer parts.

In the above cross referenced previously filed applications, an inputoutput scanner concept is described wherein a single pair of paper pathrolls drive both the document at the 12 o'clock position and the copypaper at the 6 o'clock position and the circumference of each roll isequal to the width of the reading head and the writing head. Thescanning carriage has secured thereto a reading head and a printing headwhich carriage system scans across a document scanning a band ofinformation across the document and prints a band of information acrossa copy sheet. The carriage system has a separate indexing mechanism toindex the document and copy sheet to a second position to scan anotherband of information across the document. Between imaging scans both thepaper and the document are advanced exactly the same amount by onecomplete revolution of the drive rolls thus eliminating the need fortight control of the run out tolerances on the rolls thereby insuringlower costs for the parts.

Most copiers, printers, facsimile machines and scanner devices usemultiple electromechanical actuators such as motors, clutches,solenoids, etc. to operate the various components of the machine atvarious times in the processing cycle. Even in the compact combinedinput/output scanner described in the above cross-referenced previouslyfiled applications, there were two motors required. One was used to movethe scanning carriage and the second was used to advance both thedocument and the copy paper. For each electromechanical actuator, thereare costs which must be born besides the unit cost of the actuatoritself. These include a power supply to drive the device, harness coststo carry the power and control signals to the device, assembly costs toinstall the device, the power supply and the harness and electroniccircuitry to control the devices and often some kind of voltage controlcircuitry to ensure proper operation of the devices over a wide range ofoperating voltages. Accordingly, and particularly for a very low costdevice, significant advantages can be gained whenever anelectromechanical device can be eliminated.

PRIOR ART

U.S. Pat. No. 4,920,421 to Stemmle discloses an architecture includingcombing an input and output scanner and a fixed platen with a carriagesystem for scanning across the document and reading a band ofinformation and printing it on a copy sheet, then indexing the carriageto the next band of information on the document while advancing the copypaper the same distance relative to the copy sheet support on thecarriage.

In addition, there are several hand held scanners which are batteryoperated and produce only a copy of a relatively small or partial bandof information, rather than a full copy of an 81/2×11 sheet. Forexample, the Casio™ copy pen is an example of such a handheld batterypowered scanner which uses manual operation to scan an 8 millimeterportion of a document which is stored and printed on plain paper bymanually moving the printhead on the other end across the paper. Othersimilar devices read a document and simultaneously write a copy onthermal paper as it is unrolled from a paper supply on board the handheld copier. None of these devices have document or paper transport.

SUMMARY OF THE INVENTION

The present invention is directed to a compact scanning system of ultrasimplicity, very low cost and a high degree of portability. Inaccordance with the principle aspect of the present invention a scannerhas a frame assembly for supporting a movable carriage for scanningmovement in a scanning path in a first direction across the frameassembly, means to transport a sheet through the scanner, means to movethe carriage across the sheet to perform an operation on at least aportion of the sheet and only a single source of electromechanical powerto drive all of the means to transport the sheet and the means to movein the scanner.

In a further aspect of the present invention the movable scanningcarriage supports a document reading head, the sheet is a document withan image thereon, the transport means transports the document throughthe scanner and the reading head reads at least a portion of thedocument as it moves across the document.

In a further aspect of the present invention the movable scanningcarriage supports a printing head, the sheet is a copy sheet forreceiving an image from the printing head, the transport meanstransports the copy sheet through the scanner and the printing headprints an image on at least a portion of the copy sheet as it movesacross said copy sheet.

In a further aspect of the present invention the scanning carriageincludes solid state devices with reading and or printing elementsrespectively, securely mounted to a mounting substrate.

In a further aspect of the present invention the reading head andprinting head are co-mounted and the reading head produces a digitalimage and is electrically connected to the printing head for printing adigital image on a copy sheet.

In a further aspect of the present invention the means to transport asheet includes means to index a sheet through a path in a directiontransverse to the scanning direction.

In a further aspect of the present invention the means to transport botha document and copy sheet are provided which include means to index adocument through a document path in a direction transverse to thescanning direction and to index a copy sheet through a copy sheet pathin the opposite transverse direction of indexing said document.

In a further aspect of the present invention the single source ofelectromechanical power is a reversible motor.

In a further aspect of the present invention the reading and printingoccur essentially simultaneously without image storage.

In a further aspect of the present invention the right side pixel of theread head coincides with the lead edge of a portion of a document to becopied and the left side pixel of the printhead coincides with the leadedge of the print of said portion on a copy sheet to form a rightreading image on the copy sheet.

In a further aspect of the present invention the scanning carriage ismovably mounted between the plane of the document transport path and theplane of the copy sheet transport path.

In a further aspect of the present invention the indexing meanssimultaneously indexes a document in the document transport path and acopy sheet in the copy sheet transport path.

BRIEF DESCRIPTION OF THE DRAWINGS

For a better understanding of the present invention, reference is had tothe accompanying drawings wherein the reference numerals have beenapplied to the same parts in several figures.

FIGS. 1A, 1B, and 1C are three isometric views illustrating the generaloperation of the compact copier.

FIG. 2 is an isometric view of the compact scanner according to thepresent invention with the top cover removed.

FIG. 3 is a schematic cross sectional view of the compact scanneraccording to the present invention.

FIG. 4 is an enlarged sectional view illustrating the elements of thescanning carriage in the present invention.

FIG. 5 is an illustration of the scanning operation.

FIGS. 6A, 6B and 6C illustrate the cam operation of the single actuatorcopier concept.

FIGS. 7A and 7B show the cam unwrapped to a flat profile.

FIG. 8 is a isometric view of the copy sheet registration gate and idlerroll arrangement.

DESCRIPTION OF PREFERRED EMBODIMENT

Referring now to FIGS. 1A, 1B and 1C a general overview of the compactscanner according to the present invention is provided. The scanner isgenerally illustrated as comprising a frame assembly 15 which may havemaintenance station 12 at one end and a top cover 11 pivotally mountedto the frame assembly. To make a copy of document 14 the top cover isrotated to the open position as shown in FIG. 1A, copy sheet 13 isinserted at the entrance of the copy sheet transport path and thedocument 14 is inserted against a registration stop member in the topcover after which the top cover is closed and the copying sequencebegins by the scanning carriage scanning a band of information acrossthe document. During the scanning operation the document and copy paperare both held in a fixed position and the document and copy paper areboth held in a fixed position and the image on the document is digitizedby an input digitizing system and in the preferred embodiment a digitalimage is essentially simultaneously printed by a printing system on thecopy sheet. Subsequently, the document is indexed to the right and thecopy sheet is indexed to the left to enable the scanning carriage toscan a second band of information across the document. The distance ofthe indexing of both the document and copy sheet is the width of theband of information across the document.

Referring to FIGS. 2, 3, 4, 6A, 6B and 6C of the drawings there is showna combined input scanner and output scanner designated generally byreference numeral 10. The scanner 10 includes a frame assembly 15composed of a base unit 18, rails 19 within which scanning carriage 20is transported during its scanning path. When not in scanning operationthe scanning carriage 20 is parked at the home position. If the printinghead is an ink jet head it is parked in the maintenance station 12 (seeFIG. 1A) which may perform one or more of the following functions;sealing off the head to keep it from drying out or being contaminated,clean the head, humidify the head and act as a waste sump to enable thehead to be primed.

The scanning carriage 20 includes a reading head 17 and a printing head25 mounted on substrate 52. The reading head comprises a contact imagesensor, CIS 56, including an array of light emitting diodes 21 mountedto frame 57 for illuminating a document 14 adjacent a glass platen 54,an image of which is reflected through a lens 23 such as a Selfoc lens,to an input sensor chip 26 having an array of photosites for activationby the reflected radiation which is converted to electrical signals orpixels which are processed by an application specific integrated circuit(ASIC) 27 and subsequently transmitted to the printing head 25. Theprinting head may be an ink jet chip or a thermal print head (TPH) 25printing on sensitized paper or by heating ink impregnated in a ribbon58 as illustrated in FIG. 4 or some other direct marking device.Typically, the thermal print head comprises an array of heater elements,resistors 53, which are actuated, heated, to form pixels by directcontact with thermal paper 13 or by melting a small portion of ink onribbon 58 and pressing it into plain paper 13, essentiallysimultaneously in response to the image read by the reading head. Duringthe operation the scanning carriage scans a document which is in animage plane and prints on the copy sheet which is in the printing plane.

It will be understood that while reference has been made to readingheads and printing heads that the present invention encompasses in ageneric sense solid state devices with input reading elements and solidstate devices with output printing elements. It will also be understoodthat the number of scanning elements or sensors that comprise the imagereading head 17 determine the initial scanning resolution while thenumber of heating elements 53 that comprise the printing head 25determine the resolution of the image copy. In a preferred embodimentthe number of input scanning elements equals the number of outputprinting elements. In a particularly preferred embodiment the sensorchip has 384 photosites at 400 per inch or 16 per millimeter and thethermal print head also has 384 heater elements at 400 per inch or 16per millimeter. Both the reading head and the printing head are securedfor movement on scanning carriage 20 which may be mounted forunidirectional scanning movement or forward and backward bi-directionalscanning movement in a scanning path along the length of the frameassembly by means of scan stepper motor 32 through lead screw 31 to movethe scanning carriage on the rails 19.

The movement of the scan carriage 20 supporting image reading head orassembly 21, 23, 26 and printing head 25 is further illustrated withreference to FIG. 5. Arrows 33a and 33b illustrate a forward and areverse scan of the carriage 20 across a document and copy sheet. Thearrows 68 illustrate that a number of pixels, perpendicular to thedirection of movement of scan carriage 22, are both read by the readinghead and printed by the printing head as the carriage scans the documentand copy sheet. In a typical embodiment, 384 pixels at 400 per inch areread and printed perpendicular to the movement of the carriage as itscans. In this example, arrow 68 represents a band of information 0.0025inch long and 0.96 wide which is read and printed. This enables scanninga band of information about 0.96 inches wide. The movement of thecarriage can be continuous or in discrete steps, but in a preferredembodiment, the 384 pixels are read and printed in increments that areone pixel apart as shown. In one embodiment, each time the scan carriagemoves a distance of one pixel width across the sheet, the electronicimage of 384 pixels down the sheet are moved into a shift register andthen amplified and shifted in reverse order into the print head to heatthe 384 heater elements 53 and thereby create a print of the 384 pixelspreviously read. This sequence is repeated each time the scan carriagehas moved a distance of one pixel width. It should be noted that thescanning could also be done with 384 parallel channels, each channelreading and writing a single line of pixels as the carriage sweepsacross the page. While it is preferred that the read-write operation besubstantially simultaneous it should also be noted a digital buffer orregister could be incorporated to initially store the scanned or readsignals for later printing after a predetermined or arbitrary timeperiod. It should also be understood that the combined scannerillustrated has multi-mode capability and could be operatedindependently as a printer modulated by any suitable device providingdigital information, operated independently as a scanner to convertsource documents to a digital representation, or operated as a facsimiledevice using the reading and printing elements when combined with asuitable modem, or as a copier by combining the scanning and printingoperations. As a printer only the reading head need not be included andas a scanner only the printing head need not be included.

With further reference to FIG. 2, and additional reference to FIGS. 3-8the single actuator copier will be described in further detail. The scancarriage 20 is driven by a lead screw 31 which may be attached directlyto a stepper motor 32 as illustrated ion FIG. 2 or alternatively driventhrough a gear train. As the motor rotates the lead screw, the grooves40 in the lead screw engage threads (not shown) on the interior of thescan carriage to translate the read/write carriage along the lead screw.The pitch on the lead screw is selected, such that, each pulse or everysecond, third or fourth pulse, of the stepper motor corresponds to onepixel width or 1/400th inch of carriage motion. This enables the sameclock pulse generator used to drive the stepper motor to be used totrigger the read/write systems on the scanning carriage. Alternatively,a D.C. motor may be used to actuate the lead screw and together with anencoder wheel generate a signal which is used to trigger the read and/orwrite functions.

Following a scanning run in either direction across the length of theframe assembly the document and copy sheet are each indexed through thescanner in opposite directions a distance equal to the width of the bandof information on the document scanned by the reading head which is thesame as the width of the band of information printed on the copy sheetby the printing head. This width can be any width from a minimum of asingle pixel line to a maximum of the width of the entire document. Inpractical terms, however, in order to keep the cost of the read andwrite components low the width of the band is of the order of a fractionof an inch to several inches wide. The method for achieving this isillustrated with further reference to FIG. 2 and FIG. 3 wherein anindexing means is provided comprising rotatable drive rolls 35a, b, cand d, mounted on drive roll shafts 36a and 36b forming feeding nips fora document with document feed idler rolls 42 contained within the topcover 11 of the scanner. The term synchronously driven is intended todefine only that the shafts 36 are synchronized to each other. The driverolls 35a, b, c and d also form feeding nips for a copy sheet with thecopy sheet idler rolls 46 in the copy sheet transport path.

With the read/write carriage in the home position, the stepper motor 32rotates the lead screw 31, which translates the carriage 20 in animaging sweep across the copier frame 15. At the completion of theimaging sweep a tab 63 on the carriage contacts a stop 64 on camactuator arm 65 which is pivotally mounted about fixed pivot 69 andmoves it in the scanning direction whereby cam drive pin 38 turns thebarrel cam 39 which is fixedly mounted to shaft 36. Attached to camactuator arm 65 at its fixed end is a spring, which may, for example, bean integrally molded plastic leaf spring 71 which is in biasedengagement at its other end with a fixed stop member 74 and is alwaysurging the cam drive pin 38 to detent into the end of a slot on thebarrel cam 39 in the home position.

In operation as the carriage moves in a first direction tab 63 engagesstop 64 causing arm 65 to rotate about pivot 69. During this motion pin38 engages a cam profiles 90 (See FIG. 7A) of barrel cams 39 on the endof the drive roll shafts 36a and b and rotates the barrel cams andshafts 36a and 36b a portion of a complete rotation. During this motionenergy is stored in leaf spring 71 as the carriage motion causes arm 65to rotate which causes spring 71 to flex. The direction of rotation ofthe motor is reversed and the translating read/write carriage is drivenin a second direction. The energy stored in spring 71 causes the arm 65to rotate in the opposite direction following the movement of thecarriage. During this motion which causes the pin 38 to engage a secondcam profile 91 on the barrel cam thus, causing a second portion ofrotation in the same direction as the first rotation. This may be morecompletely understood with reference to FIGS. 6A, 6B, 6C and 6D, whichillustrate the position of the scanning carriage at several positions,and FIGS. 7A and 7B which illustrate the cam unwrapped to a flatprofile. Thus, when the carriage moves in the first direction forforward indexing, the cam drive pin 38 advances from point A to point B,during which the cam does not rotate. As, the motion of the scanningcarriage causes the pin 38 to continue from point B to point C the camprofile 90 is engaged and the cam rotates a distance M. When motion ofthe scanning carriage is reversed the pin moves from point C to point E(see FIG. 7A) and the cam does not rotate during this motion. As thescanning carriage continues in the opposite direction enabling pin 38 tomove from point E to point A once again, the return cam profile 91 isengaged by pin 38 and the cam rotates a distance N. At point A, the camhas rotated one complete revolution, the cam actuator arm is springloaded by the preload energy stored in spring 71 to detent the pin at Ato insure that the drive roll will hold position during the subsequentscanning cycle and resist shaft 36 rotation due to perturbing forceswhich could cause pixel placement errors. When the carriage reaches aposition which corresponds to the cam pin at A the second time, thecarriage normally continues to translate in the reverse direction acrossthe imaging area until it reaches the other side of the document andcopy paper. For bi-directional reading and writing imaging would beaccomplished during this return sweep. For uni-directional reading andwriting imaging is done only in the forward direction. Unidirectionalimaging limits the pixel placement errors due to any backlash in thesystem. For 11 inch long paper 12 imaging sweeps are required for aprinthead 384 pixels wide. After the last imaging sweep of theread/write carriage, the next copying cycle can begin immediately byloading the next document and copy paper into the system.

The scanner, according to the present invention, has application withthe platen accessory described in U.S. application Ser. No. 07/547,275as described above and for purposes of returning the scanner to the homeposition automatically can be provided with a third and fourth camprofile molded into the barrel cam as illustrated in FIG. 7B.Accordingly, after the last imaging sweep the scanner will be located atthe other end of the platen from its start position. Rather thanstopping the pin 38 at position C and reversing to position A as wasdone for forward indexing, the translating carriage continues to movethe pin in the first direction past position C until it reaches positionD. At that time, the carriage alternately reverses direction to move thepin 38 between positions D and B for a total of 12 cycles. This motioncauses the pin to engage two additional cam profiles 92, 93 on thebarrel cam which rotate the drive shaft in the opposite direction tothat of the forward index and which automatically moves the copier backto its home position. After the last half cycle from position D to B,the carriage and pin continue in a second direction and thus, moving thepin to its detent position at A. Having moved the copier back to itshome position, the read/write carriage continues in a second directionacross the imaging area to the carriage home position.

With additional reference to FIG. 3, the top cover 11 is pivotallymounted to the frame assembly 15 and in particular the base unit 18 andpivots about points 41. When the top cover is pivoted to the openposition the document feed idler roll 42 are disengaged from the driverolls a registration edge is inserted into the plane of the documenttransport path enabling the placement of a document to be copied in thescanner with its lead edge registered and inhibiting transport of thedocument through the document transport path. In a preferred embodimentthe circumference of the drive rolls is equal to the width of the bandof information across the documents scanned by the scanning carriage toeliminate run out and shaft straightness tolerance defects whichotherwise might cause some misregistration between scan widths.

As illustrated in FIG. 3 the second pair of indexing rolls is located onthe opposite side of the lead screw from the first pair of indexingrolls. This second indexing roll pair is the same as the first, namelythey are mounted on a shaft which has a barrel cam on one end which isactuated in the same manner as the first indexing roll pair by anactuator to provide synchronization between the first and second pair ofindex rolls. With the second pair of indexing rolls deletions on the topand bottom of an image read and/or an image printed are eliminated. Withonly a single indexing roll system both the document and copy sheet mustbe loaded into the single nip which means that the distance from the nipto the image area is a deletion.

Attention is directed to FIG. 8 illustrating the copy sheetregistration, mechanism wherein the read/write carriage 20 engages aramp 48 on a toggling link 49 just before it reaches its home position.This engagement and further motion of the read/write carriage causes thetoggling link 49 to rotate about a pivot 50 and the other end of thetoggling link 49 lifts the registration gates 60 into the paper path asshown in the FIG. 8. The registration gates 60 are mounted on a pivotingframe 61, which has the copy paper idler rolls 46 mounted on theopposite side of the pivot 51 for this frame. Accordingly, when theregistration gates 60 are lifted the copy paper idler rolls 46 aresimultaneously disengaged from the drive rolls. This motion opens thenips and allows the operator to insert a piece of copy paper for thenext copying job. When the read/write carriage moves in a firstdirection away from the home position, this motion also allows togglelink 49 to return to its initial position which drops the registrationgates out of the paper path and engages the idler rolls to the driverolls, thus, capturing and holding the copy paper in position during theimaging sweep, and providing a drive force on the copy paper during theindex cycle at the end of the imaging sweep.

When the top cover is opened the idler rolls in the document path whichare mounted in the top cover are moved out or position enablingplacement of the document against the front registration edge which ispart of the top cover assembly. Following insertion of the copy sheetthe top cover is closed thereby re-engaging the document idler rollswith the drive roll. In addition, two sensors (not illustrated) detectthat both the document and the copy paper have been loaded, andaccordingly, the logic initiates the copying sequence. The scan carriagecontaining the reading and writing heads moves from the home position,dropping the registration gates out of the paper path and engaging thecopy paper idler rolls to the drive rolls, scans across the document andcopy sheet while both remain stationary. The document is positioned sothat its lead edge coincides with the right side pixel of the read head,and the copy paper is positioned so that its lead edge coincides withthe left side pixel of the print head. This enables the formation of aright reading image on the copy sheet. A line of information on thedocument read on the right extreme of the image read head fires theprint head on the extreme left of the printing array during the scan ofthe carriage 20. This may be illustrated with reference to FIG. 3. Thepixel data received by the input chip at the extreme right of the chip(R)); as the carriage 20 moves in the direction into and out of thepaper is transmitted and amplified to modulate the print head to firethe print head at the extreme left (L) of the print head. This schemeenables the printing of right reading copies with essentiallysimultaneous reading and writing without information storage. As thecarriage scans across both the document and the copy paper, the 0.96inches band of information being read off the document is immediatelyprinted onto the copy paper. When the first imaging scan is complete thecarriage motion continues in the same direction engaging the stops 64 onthe cam actuator arm 65 causing the arm to move which rotates cam 39 andshafts 36a and b causing both the document and copy paper to be indexedin a direction transverse to the scanning direction the width of theband of information previously scanned. This indexing is accomplished bydriving the drive rolls which engage the document at the 12:00 positionwith the document feed idler rolls forming a feeding nip therebetween,and the copy paper at the 6:00 position with the copy sheet feed idlerroll forming a feeding nip therebetween. The clockwise motion of thedrive rolls of one revolution causes a document to be indexed 0.96inches to the right and the copy paper to be indexed 0.96 inches to theleft. In this way the second band of information from the document ismoved into a position over a scan carriage and a second portion of thecopy paper is moved to a position under the print head. The scancarriage reverses and returns to a position near the home position thenreverses direction again to scan across the document and copy paper inthe reverse direction from the first scan again reading the document andimmediately printing the copy. This sequence is repeated until theentire document is read and the entire copy is printed after which timethe print head returns to the home position and is parked.

Accordingly, by the present invention, a single actuator copier systemhas been provided, which eliminates all other electromechanicalactuators by providing an entire copying system, wherein, all copierfunctions are accomplished with a single motor. The invention has theadvantage of eliminating parts, reducing costs of parts and elements, aswell as reducing assembly costs.

All the patents and other references together with the cross referencedcopending applications are hereby and specifically totally incorporatedin their entirety into this specification.

While the invention has been described with reference to specificembodiments thereof it will be apparent to those skilled in the art thatmany alternatives, modifications and variations may be made. For examplewhile the invention has been illustrated with respect to having ascanner having both a reading head and a printing head it will beunderstood that it has application to stand alone scanners and printers.Accordingly, it is intended to embrace all such alternatives andmodifications as may fall in the spirit of the appended claims.

I claim:
 1. A scanner comprising a frame assembly for supporting amovable carriage for scanning movement in a scanning path in a firstdirection, means to transport a sheet through said scanner, means tomove said carriage across said sheet to perform an operation on at leasta portion of said sheet, and a single source of electromechanical powerto drive all of said means to transport and means to move in saidscanner.
 2. The scanner of claim 1 wherein said movable scanningcarriage supports a document reading head, the sheet is a document withan image thereon, the transport means transports the document throughthe scanner and the reading head reads at least a portion of thedocument as it moves across said document.
 3. The scanner of claim 1wherein said movable scanning carriage supports a printing head, thesheet is a copy sheet for receiving an image from said printer head, thetransport means transports the copy sheet through the scanner and theprinting head prints an image of at least a portion of the copy sheet asit moves across said copy sheet.
 4. The scanner of claim 2 wherein thescanning carriage includes a mounting substrate and said reading headincludes a solid state device with input reading elements which producesa digital image.
 5. The scanner of claim 3 wherein the scanning carriageincludes a mounting substrate and said printing head includes a solidstate device with output printing element for printing digital image onsaid copy sheet.
 6. The scanner of claim 2 wherein said means totransport a document includes means to index a document through adocument path in a direction transverse to said first direction.
 7. Thescanner of claim 3 wherein said means to transport a copy sheet includesmeans to index a copy sheet through a copy sheet path in the directiontransverse to said first direction.
 8. The scanner of claim 1 whereinsaid single source of electromechanical power is a reversible motor. 9.The scanner of claim 1 wherein said carriage is mounted forbidirectional scanning movement in said frame assembly.
 10. The scannerof claim 1 wherein said printing head is a thermal ink jet array. 11.The scanner of claim 1 wherein said printing head is a direct thermalprint head.
 12. The scanner of claim 1 wherein said printing head is athermal transfer print head.
 13. A combined input scanner and outputscanner comprising a frame assembly for supporting a movable documentreading head and a movable printing head for scanning movement in ascanning path in a first direction, means to transport a documentthrough said scanner, means to transport a copy sheet through saidscanner, means to move said reading head across said document to read atleast a portion of said document, means to move said printing headacross said copy sheet to print an image on at least a portion of saidcopy sheet, and a single source of electromechanical power to drive allof said means to transport and means to move in said combined inputscanner and output scanner comprising.
 14. The scanner of claim 13wherein the reading head and writing head are comounted on the samecarriage.
 15. The scanner of claim 14 wherein the scanning carriageincludes a mounting substrate, said reading head includes a solid statedevice with input reading elements and said printing head includes asolid state device with output printing elements, said solid statedevices being securely comounted to the mounting substrate.
 16. Thescanner of claim 13 wherein the reading head produces a digital imageand is electrically connected to said printing head for printing saiddigital image on said copy sheet.
 17. The scanner of claim 16 whereinsaid means to transport a document and copy sheet include means to indexa document through a document path in a direction transverse to saidfirst direction and to index a copy sheet through a copy sheet path inthe opposite transverse direction of indexing said document.
 18. Thescanner of claim 13 wherein said single source of electromechanicalpower is a reversible motor.
 19. The scanner of claim 13 wherein thatportion of an image printed by said printing head corresponds to thatportion of a document read by said reading head.
 20. The scanner ofclaim 19 wherein said reading and printing occur essentiallysimultaneously without information storage.
 21. The scanner of claim 13wherein said carriage is mounted for bidirectional scanning movement insaid frame assembly.
 22. The scanner of claim 13 wherein the right sidepixel of the read head coincides with the lead edge of a portion of adocument to be copied and the left side pixel of the print headcoincides with the lead edge of the print of said portion on a copysheet to form a right reading image on the copy sheet.
 23. The scannerof claim 13 wherein said scanning carriage is movably mounted betweenthe plane of said document transport path and the plane of said copysheet transport path.
 24. The scanner of claim 17 wherein said documenttransport path is above said copy sheet transport path and said readinghead and printing head are co-mounted on said scanning carriage foressentially simultaneously reading a document face side down in saiddocument transport path and printing a digital image face side up on acopy sheet.
 25. The scanner of claim 24 wherein the right side pixel ofthe read head coincides with the lead edge of a portion of a document tobe copied and the left side pixel of the print head coincides with thelead edge of the print of said portion on a copy sheet to form a rightreading image on the copy sheet.
 26. The scanner of claim 13 whereinsaid indexing means simultaneously indexes a document in said documenttransport path and a copy sheet in said copy sheet transport path. 27.The scanner of claim 26 wherein when said carriage moves in said firstdirection the reading head scans a band of information across thedocument and the printing head essentially simultaneously prints thesame band of information across a copy sheet and upon completion of saidscanning movement said indexing means indexes the document and copysheet through their respective paths a distance equal to the width ofsaid band of information before said carriage scans another band ofinformation across the document.
 28. The scanner of claim 13 whereinsaid printing head is a thermal ink jet array.
 29. The scanner of claim13 wherein said printing head is a direct thermal print head.
 30. Thescanner of claim 22 wherein said printing head is a thermal transferprint head.
 31. The scanner of claim 22 wherein the indexing meansincludes a first pair of synchronously driven rotatable drive rolls,each drive roll forming a feeding nip for a document with a documentfeed idler roll and a feeding nip for a copy sheet with a copy sheetfeed idler roll.
 32. The scanner of claim 26 wherein the drive rollshave a circumference equal to the width of the band of information. 33.The scanner of claim 26 further including a second indexing means whichincludes a second pair of rotatable drive rolls synchronously drivenwith said first pair of drive rolls, each of said second pair of driverolls forming a feeding nip for a document with a document feed idlerroll and a feeding nip for a copy sheet with a copy sheet feed idlerroll.
 34. The scanner of claim 27 wherein the document feed nip is ontop of the drive roll and the copy sheet feed nip is at the bottom ofthe drive roll.
 35. The scanner of claim 33 wherein the document feedidler rolls are mounted in a top cover for the frame assembly, saidcover being pivotally mounted to said frame assembly and having adocument registration edge which extends into said document transportpath when the top cover is pivoted to the open position whereby whensaid cover is pivoted to the open position the document feed idler rollsare disengaged from the drive rolls and a document may be placed in saiddocument transport path and the lead edge registered.